Simplified connector receptacle housings

ABSTRACT

Structures, methods, and apparatus that provide connector receptacles that have a reduced tendency to scratch and otherwise mar connector inserts, have an aesthetically-pleasing appearance, and have an improved tactile response when inserts are inserted. Various examples reduce scratches and wear by utilizing domes, cylinders, balls, or other structures as finger contacts in a connector receptacle. Another example provides aesthetically-pleasing connector receptacle enclosures by forming receptacle enclosures using the same type of material, or material having the same or similar color or texture, as is used for enclosing the electronic device that includes the receptacle. Another example provides an aesthetically-pleasing receptacle enclosure by forming receptacle enclosures that are, in part or in whole, contiguous or formed with the housing. Another embodiment provides a connector receptacle having a housing where a portion of the housing has been removed to save space.

This application is a continuation of U.S. patent application Ser. No.12/895,183, filed Sep. 30, 2010, which is a continuation-in-part of U.S.patent application Ser. No. 12/854,180, filed Aug. 11, 2010, which is adivisional of U.S. patent application Ser. No. 12/571,376, filed Sep.30, 2009, which are incorporated by reference.

BACKGROUND

Data transfers between devices such as computers and peripheral devices,including portable media devices, have become ubiquitous the lastseveral years. Music, phone numbers, video, and other data are movedamong these devices, often using universal serial bus (USB), FireWire™,DisplayPort™, or other types of cables. Such cables are used to formelectrical pathways for signals that carry this information.

These electrical connections are typically formed by inserting connectorinserts on each end of a cable into connector receptacles located on thecomputer and peripheral device. The connector receptacles are oftenformed using a metal housing to limit the propagation of stray signalcomponents that would otherwise interfere with other signals.

The metal housing is typically stamped to form fingers. These fingersare then bent to form finger contacts. These finger contacts form anelectrical connection with a shield on the connector insert and hold theconnector insert when it is placed in a connector receptacle. However,these finger contacts may have sharp edges or burrs that may resultduring the stamping process. These edges or burrs can scratch orotherwise mar a connector insert after many insertions into a connectorreceptacle. Also, it is desirable that these finger contacts provide asecure snap or feel when accepting an insert. This provides the userwith a mechanical feedback, letting her know that a connection has beenmade.

These connector receptacles are conventionally made separately, and outof a different material, than the enclosure that otherwise encompassesthe computer or portable media player. This results in a seam that isformed near the opening of a connector receptacle at the interface ofthe receptacle and computer or peripheral device enclosure. These seamscan become increasingly pronounced during the lifetime of the deviceafter repeated stresses caused by connector insert insertions and thepulling of cables when inserted into the receptacle. These seams can bean unwanted blemish on an otherwise aesthetically-pleasing device.

Thus, what is needed are structures, methods, and apparatus that provideconnector receptacles having a reduced tendency to scratch and otherwisecause wear to connector inserts. It is also desirable that suchreceptacles provide a secure tactile response when an insert isinserted. It is also desirable to provide connector receptacles having apleasing appearance.

SUMMARY

Accordingly, embodiments of the present invention provide structures,methods, and apparatus for connector receptacles that have a reducedtendency to scratch and otherwise cause wear to connector inserts, havean improved tactile response when connector inserts are inserted, andhave an aesthetically desirable appearance.

Various embodiments of the present invention can reduce scratches andwear by utilizing domes, cylinders, spheres, or other structures asreceptacle housing finger contacts. A specific embodiment of the presentinvention may utilize a dome-shaped indentation in a frame of aconnector receptacle. The frame may be made of metal or other material.The dome-shaped indentations may be arranged to fit into slots in aconnector insert to provide a secure fit between the connector insertand connector receptacle. The domes can provide a surface that issubstantially free from edges and burrs that would otherwise scratch ormar the surface of an insert, thereby causing wear. The domes may belocated on a flexible frame that can expand to fit over a receptaclehousing. These flexible frames may be conductive and grounded to provideelectromagnetic impulse (EMI) shielding, thereby protecting circuitry inthe computer, peripheral device, portable media player, or other deviceenclosed within the connector receptacle. The flexible frames may alsobe further at least partially enclosed by a second conductive frame forfurther EMI shielding and for overheating and fire reasons. Thedome-shaped indentation may be made by stamping or other appropriateprocess.

Another specific embodiment of the present invention reduces scratchesby utilizing cylindrical disks as finger contacts. Thesehockey-puck-shaped disks may be arranged to fit into slots in theconnector inserts to provide a secure fit when a connector is insertedinto a connector receptacle. The disks can provide a surface that iseasily manufactured and reduces marring. The disks can be attached to aflexible frame that can expand to fit over a receptacle housing. Asbefore, the frames can be grounded for shielding and they can be furthershielded with a second conductive frame. The disks may be soldered orotherwise affixed to the flexible frame.

Another specific embodiment of the present invention reduces scratchesand wear by employing spheres as finger contacts. These balls or spheresmay be free to rotate when a connector insert is inserted into aconnector receptacle. These spheres may be located in openings in aconnector receptacle housing that are arranged such that the balls fitinto slots in the connector inserts when inserted into a connectorreceptacle to provide a secure fit. The spheres may be held in place bya flexible frame that can expand to fit over the spheres and receptaclehousing. Since the spheres are free to rotate when an insert isinserted, they can provide a low resistance but secure feel to a user.As before, the frames can be grounded for shielding and they can befurther shielded with a second conductive frame for further EMI andoverheating and fire protection. The spheres may be held in place by avacuum or other pressure differential, by magnetic fields, or by othermeans, while the flexible frame is put in place. In other embodiments ofthe present invention, other shapes besides domes, cylinders, andspheres may be used. For example, other spheroid shapes may be used, andthey may be fixed, that is, attached to or formed from a frame. Thesespheroids may be free to turn, rotate, twist, or otherwise move when aconnector insert is inserted in a connector receptacle.

Various embodiments of the present invention can provideaesthetically-pleasing receptacle housings by forming receptaclehousings using the same type of material, or material having the same orsimilar color or texture, as is used for the enclosure for theelectronic device that includes the receptacle. In one specificembodiment of the present invention, a receptacle housing can be formedusing plastic. To reduce EMI interference, the plastic receptaclehousing can be at least partially enclosed in a conductive frame. Theframe may have the above domes, cylinders, or balls, or other shaped EMIcontacts to form an electrical path with a shield on a connector insertthat is inserted into the connector receptacle. The frame may beflexible to fit around the receptacle housing. The frame may be enclosedin a second conductive frame for further EMI protection and for heat andfire reasons. The connector receptacle can then be connected to aflexible or printed circuit board and aligned with a matching opening inthe electronic device.

Other embodiments of the present invention can provide anaesthetically-pleasing receptacle housing by forming receptacle housingsthat may be, at least in part, contiguous with an enclosure containingan electronic device that also includes the connector receptacle. In aspecific embodiment of the present invention, a portion of the connectorreceptacle near its opening may be formed contiguously with, that is,may be formed as part of, the device enclosure. Other portions away fromthe opening may be formed separately. As before, at least part of thereceptacle housing may be enclosed in a conductive frame. The frame mayhave domed, cylindrical, spherical, or other shaped finger contacts. Theframe may be flexible to fit around the receptacle housing. This framemay be enclosed in a second conductive frame.

Other embodiments of the present invention provide an aestheticallypleasing connector receptacle housing by forming receptacle housingsthat can be contiguous with the enclosure containing the electronicdevice that also includes the receptacle, that is, they can be formed aspart of the enclosure. A specific embodiment of the present inventionfurther forms a tongue as part of the connector receptacle and deviceenclosure. Conductive contacts may then be placed on the tongue to formelectrical paths with contacts in a connector insert. As before, atleast part of the receptacle housing may be enclosed in a conductiveframe. The frame may have domed, cylindrical, ball, or other shaped EMIcontacts. The frame may be flexible to fit around the receptaclehousing. This frame may be enclosed in a second conductive frame.

In various embodiments of the present invention, the connectorreceptacle may be a USB, DisplayPort, IEEE 1394 (FireWire), Ethernet, orother type of connector receptacle. The connector receptacle housingscan be formed from the same material used to form the enclosure for thedevice that includes the connector receptacle. These materials caninclude aluminum, plastic, ceramics, or other material. The frames,disks, spheres, and other components can be formed using conductive ornonconductive materials, such as aluminum, brass, steel, stainlesssteel, spring steel, palladium nickel alloy, copper, and othermaterials. These materials may be plated, for example, they may bepalladium-nickel plated, or plated with other appropriate materials. Forexample, the spheres may be palladium-nickel plated. Connectorreceptacle consistent with embodiments of the present invention may belocated on computer enclosures or other enclosures, such as those usedfor desktop computers, laptop computers, netbook computers, mediaplayers, portable media players, tablet computers, cell phone, or otherelectronic devices.

Another embodiment of the present invention may provide a connectorreceptacle having a simplified housing. Specifically, this connectorreceptacle may include a housing where a portion of the housing has beenomitted to save space. In various embodiments of the present invention,various portions of the housing may be omitted. For example, thisportion may be a top of a connector receptacle housing, such that itsabsence is not particularly noticeable to an observer. Removing the topof the housing may reduce the height of the connector receptacle inorder to save space in a device housing the connector receptacle.

Various embodiments of the present invention may incorporate one or moreof these and the other features described herein. A better understandingof the nature and advantages of the present invention may be gained byreference to the following detailed description and the accompanyingdrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a computer system that may be improved by theincorporation of embodiments of the present invention;

FIGS. 2A-2C illustrate top, side, and front views of a frame for aconnector receptacle according to an embodiment of the presentinvention;

FIGS. 3A-3B illustrate the reaction of a connector receptacle frameconsistent with an embodiment of the present invention as an insert isinserted;

FIGS. 4A-4B illustrate connector receptacles according to an embodimentof the present invention;

FIGS. 5A-5C illustrate a connector receptacle incorporating fingercontact spheres according to an embodiment of the present invention;

FIGS. 6A-6B illustrate the reaction of a connector receptacle employingspheres as finger contacts according to an embodiment of the presentinvention as an insert is inserted;

FIGS. 7A-7B illustrate a connector receptacle employing spheres asfinger contacts according to an embodiment of the present invention;

FIGS. 8A-8C illustrate examples of connector receptacle housing portionswhere the portion may be formed as part of a device enclosure accordingto embodiments of the present invention;

FIGS. 9A-9C illustrate examples of connector receptacle portions thatmay be integrated with a device enclosure according to embodiments ofthe present invention;

FIGS. 10A-10C illustrate a partially-integrated connector receptaclehousing according to an embodiment of the present invention at varioustimes during a manufacturing process;

FIGS. 11A-11D illustrate a connector receptacle housing that may beformed with a device enclosure according to an embodiment of the presentinvention at various times during a manufacturing process;

FIGS. 12A-12F illustrate another connector receptacle housing that maybe formed with a device enclosure according to an embodiment of thepresent invention at various times during a manufacturing process;

FIGS. 13A-13D illustrate a connector receptacle housing and tongue thatmay be formed with a device enclosure according to an embodiment of thepresent invention at various times during a manufacturing process;

FIGS. 14A-14D illustrate a number of connector receptacles according toan embodiment of the present invention at various times during amanufacturing process; and

FIGS. 15A-15D illustrate a connector receptacle according to anembodiment of the present invention at various times during amanufacturing process.

DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

FIG. 1 illustrates a computer system that is improved by theincorporation of embodiments of the present invention. This figure showsan example of a computer system 100 that includes computer enclosure110, computer monitor 120, keyboard 130, and mouse 140. Monitor 120,keyboard 130, and mouse 140 may connect to computer enclosure 110 viacables. For example, computer monitor 120 is shown as being connected tocomputer enclosure 110 via cable 167. Keyboard 130, mouse 140, and otherdevices may be connected to computer enclosure 110 via cables such ascable 157.

Cables 157 and 167 can include connector insert housings 155 and 160.Insert housings 155 and 160 allow a user to hold the end of the cableand insert a connector insert, such as connector insert 150, intoconnector receptacle 170 on computer enclosure 110.

Embodiments of the present invention may be employed to improveconnector receptacles such as connector receptacles 165 and 170. Theseconnector receptacles may be compatible with USB, FireWire, DisplayPort,Ethernet, and other types of signaling and power transmission standards.These connector receptacles may be compatible with proprietary signalingand power transmission technologies. Also, as new signaling and powertransmission standards and proprietary technologies are developed,embodiments of the present invention may be used to improve connectorreceptacles consistent with those standards and technologies. Theconnector receptacles may be located on computer enclosures, such ascomputer enclosure 110, or other enclosures, such as those used fordesktop computers, laptop computers, netbook computers, media players,portable media players, tablet computers, cell phone, or otherelectronic devices.

These connector inserts are typically shielded with metal for signalintegrity purposes. The shielding on the connector inserts makeelectrical contact with metallic finger contacts on the connectorreceptacle housing to form an electrical connection. Typically, theconnector receptacle housing is connected to ground inside computerenclosure 110.

These conventional connector receptacle finger contacts may have sharpedges or burrs that can scratch or mar connector inserts as they areinserted into a connector receptacle. This can lead to undesirable wearand a diminished appearance. Accordingly, various embodiments of thepresent invention provide finger contacts that reduce wear on connectorinserts. Some examples are shown in the following figures.

FIGS. 2A-2C illustrate top, side, and front views of a frame for aconnector receptacle according to an embodiment of the presentinvention. These figures, as with the other included figures, are shownfor illustrative purposes and do not limit either the possibleembodiments of the present invention or the claims.

These figures show a frame 200 that may be used alone or in conjunctionwith a connector receptacle housing to form a connector receptacleaccording to an embodiment of the present invention. FIG. 2A illustratesa top view of frame 200. Frame 200 includes base area 215 that providesmechanical support for fingers 210. Fingers 210 can each have adome-shaped finger contact 220. FIG. 2B illustrates a side view, andFIG. 2C illustrates a front view of frame 200. In various embodiments ofthe present invention, fingers 210 can be made comparatively wide. Thisreduces series resistance and improves EMI performance. This isparticularly true in comparison to conventional stamped fingers.

Frame 200 and finger contacts 220 can be formed of metal or othermaterial. Frame 200 and finger contacts 220 can be formed of the sametype of metal or other material, or they may be formed of differentmaterials. For example, frame 200 and fingers 210 may be formed of aflexible metal to allow the insertion of connector inserts, while fingercontacts 220 may be made of a harder, more durable material. Frame 200may be formed using steel, stainless steel, aluminum, palladium-nickelalloy, or other material. Frame 200 may also be plated. For example,frame 200, or portions of frame 200, such as the finger contacts 220,may be palladium-nickel plated. Finger contacts 220 may be made byforming divots or depressed areas in fingers 210. Alternately, they maybe formed by attaching dome-shaped protrusions to fingers 210. Fingercontacts 220 may have a dome shape, or they may have other shapes. Forexample, they may have other rounded or contoured, or other types ofshapes. These rounded shapes are substantially free of edges and burrs,and therefore limit the scratches they impart to connector inserts asthey are inserted.

FIGS. 3A-3B illustrate the reaction of a receptacle frame 300 consistentwith an embodiment of the present invention as an insert 350 isinserted. Specifically, in FIG. 3A, as connector insert 350 is inserted,fingers 310 deform to provide space in connector receptacle frame 300.In FIG. 3B, when connector insert 350 is fully inserted in connectorreceptacle frame 300, dome-shaped finger contacts 320 fit into slots 340in connector insert 350. This allows fingers 310 of connector receptacleframe 300 to spring back into place. Having finger contacts 320 insidecutouts 340 of insert 350 provides mechanical stability for connectorinsert 350 and helps to prevent accidental extraction from connectorreceptacle frame 300.

In this way, as connector insert 350 is inserted into connectorreceptacle frame 300, connector insert 350 comes in contact with fingercontacts 320. Since finger contacts 320 are dome-shaped andsubstantially free from sharp edges or burrs, connector insert 350 canexperience less wear and tear than it would with a conventionalconnector receptacle.

Again, frame 300 may be used in conjunction with a connector receptaclehousing formed of plastic or other material. The receptacle housing maybe a dedicated housing. That is, it may be separate from the deviceenclosure that contains the connector receptacle. In another embodimentof the present invention, some or all of the receptacle housing may beformed as part of the device enclosure. For example, frame 300 may beused in conjunction with a receptacle housing and tongue that are bothformed as part of a device enclosure that contains the connectorreceptacle. The receptacle housing and device enclosure may be made ofplastic, ceramic, aluminum, or other material. One example of how frame300 may be used in conjunction with a plastic receptacle housing isshown in the following figure.

FIGS. 4A-4B illustrate connector receptacles according to an embodimentof the present invention. FIG. 4A illustrates a connector receptacleincluding a connector receptacle housing 430 that is partially coveredby frame 400. Connector receptacle housing 430 may be formed of plastic,ceramic, or other material. Frame 400 may be made of metal or othermaterial. Frame 400 includes a number of fingers 410, each having afinger contact 420. As before, finger contacts 420 may be dome-shaped.In other embodiments of the present invention, they may have othershapes as appropriate to reduce connector insert wear.

Again, employing figure contacts 420 reduces wear on connector insertsthat otherwise can occur after several insertions into a connectorreceptacle. This improves the long-term appearance of the connectorinserts. It is also desirable to reduce the visible wear that degradesthe appearance of the connector receptacle. Accordingly, variousembodiments of the present invention provide raised areas in a connectorreceptacle. These raised areas experience wear instead of the otherportions of the connector receptacle housing. Since these raised areasmay be set back from the front of a connector receptacle, they mayexperience wear and protect the front areas of the connector receptacle,thereby improving the long-term appearance of the connector receptacle.In various embodiments of the present invention, the opening of theconnector receptacle is made larger to account for the raised areas. Inthis way, the size of the opening of the connector receptacle can bemade compliant with appropriate signal or power transmission standardswhen the raised areas are employed.

These raised areas can be located around the finger contact areas in aconnector receptacle, or they may be located in other areas inside aconnector receptacle. In a specific embodiment of the present invention,two raised areas are included, one on the top and one on the bottom ofthe inside of the connector receptacle. Each raised area surrounds twofinger contacts. In another embodiment of the present invention,additional raised areas are located on the sides of a connectorreceptacle. These additional raised areas may also surround fingercontacts on the sides of a connector receptacle. The raised areas may bemade of the same material as the connector receptacle housing, or theymay be made of a different material.

In the specific example shown in FIG. 4A, raised areas 440 are used.These raised areas can wear first, thus protecting the rest of theconnector receptacle.

Again, as a connector insert (not shown) is inserted into the connectorreceptacle, fingers 410 deflect or open up, thereby allowing a connectorinsert to be inserted. Finger contacts 420 mate with cutouts on theconnector insert (not shown), allowing fingers 410 to return to positionwhen the insert is fully engaged. Frame 400 and fingers 410 may beformed of a flexible metal or other material having a spring-likequality, such that fingers 410 can deflect and return to their originalposition. Fingers 410 and finger contacts 420 may be made of the samematerial or they may be made of different materials. For example, fingercontacts 420 may be made of a more durable material than fingers 410 inorder to enhance the lifetime of the connector receptacle, whileproviding fingers 410 having the desired flexibility.

In these examples, six fingers 410 are shown. In other embodiments ofthe present invention, other number of fingers may be used. For example,four fingers may be used, two on a top and two on a bottom of aconnector receptacle frame. In some embodiments of the presentinvention, it may be desirable to provide reinforcement for fingers 410.For example, such a reinforcement could increase the hold of fingercontacts 420, thereby reducing the likelihood of accidental extractionof a connector insert. Accordingly, in some embodiments of the presentinvention, a shell is provided around frame 400. A shell can be used toincrease resistance to fire caused by excessive heat buildup at theconnector contacts, provide additional electromagnetic interferenceshielding, and provide additional mechanical support for the connectorreceptacle. An example is shown in FIG. 4B.

FIG. 4B illustrates a connector receptacle having an additional shell450 according to an embodiment of the present invention. Shell 450 maybe metallic, ceramic, or formed of other material. In this example,shell 450 includes fingers 435. These fingers 435 allow movement offingers 410 on frame 400, thereby allowing deflection of fingers 410when a connector insert is inserted and removed.

In an embodiment of the present invention, dome-shaped or other shapedfinger contacts are used to reduce wear when a connector insert isinserted into a connector receptacle housing. In other embodiments ofthe present invention, spheres or balls are used as finger contacts.This allows the finger contacts to rotate when an insert is insertedinto a connector receptacle. Since these spheres rotate, they present anew surface to the connector inserts as they are inserted. This preventswear on the spheres that could eventually mar a connector insert. Theyalso provide a smooth feeling to a user when the user is inserting aconnector insert. An example is shown in the following figure.

FIGS. 5A-5C illustrate a connector receptacle incorporating fingercontact spheres according to an embodiment of the present invention.FIG. 5A illustrates a connector receptacle housing 530 having openingsor holes 532 into which spheres 520 are placed. FIG. 5B illustrates aframe 500 having fingers 510, each having an opening 522 in which sphere520 can fit when frame 500 is placed over connector receptacle housing530.

During assembly, spheres 520 can be held in place in connectorreceptacle housing 530, while frame 500 is fitted over connectorreceptacle housing 530. For example, spheres 520 can be held in place bya vacuum. In a specific embodiment of the present invention, connectorreceptacle housing 530 is placed in a quantity of spheres 520. A vacuumis created in the connector receptacle housing 530, thereby drawingspheres 520 into openings in connector receptacle housing 530. Whilespheres 520 are held in place, frame 500 can be fitted over spheres 520and housing 530. Again, openings 522 in fingers 510 of frame 500 fitover spheres 520 holding them in place in connector receptacle housing530. In another specific embodiment of the present invention, spheres520 are held in place during assembly by magnetic attraction. Forexample, a magnetic field is generated around connector receptaclehousing 530, thereby drawing spheres 520 into openings in connectorhousing 530. Spheres 520 are magnetically held in place while frame 500is placed over connector receptacle housing 530.

FIG. 5C illustrates top, side, and front views of a connector receptacleemploying spheres 520 as finger contacts according to an embodiment ofthe present invention. Spheres 520 fit into openings in connectorhousing 530. Openings 522 in fingers 510 hold spheres 520 in place.Frame 500 and spheres 520 may be formed using steel, stainless steel,copper, palladium-nickel alloy, aluminum, brass, or other material. Theymay also be plated. For example, they may be palladium-nickel plated.

FIGS. 6A-6B illustrate the reaction of a connector receptacle employingspheres as finger contacts according to an embodiment of the presentinvention as an insert is inserted. In FIG. 6A, fingers 610 can deflector open to allow insert 650 to be inserted into connector receptaclehousing 630. As connector insert 650 is inserted, spheres 620 rotate.This rotation allows a new surface to be presented to connector insert650, thereby reducing wear on connector insert 650. In FIG. 6B,connector insert 650 is fully engaged in connector receptacle housing630. Spheres 620 fit in connector insert cutouts 640, thereby providingthe tactile resistance to the extraction of connector insert 650.

In this example, spheres or balls are used as finger contacts. In otherembodiments of the present invention, other shapes, such as cylinders,may be used. A more detailed example illustrating the use of spheres asfinger contacts is shown in the following figures.

FIGS. 7A-7B illustrate a connector receptacle employing spheres asfinger contacts according to an embodiment of the present invention. InFIG. 7A, spheres 720 can fit into openings in connector receptaclehousing 730. In FIG. 7B, a frame 700 can be fitted over connectorreceptacle housing 730. Openings in fingers 710 fit over spheres 720,holding them in place. A flexible circuit board 740 or other connectionmay be used to form electrical pathways between connector receptaclecontacts 750 and other electronic circuitry in the device (not shown.)While in this example a flexible circuit board 740 is shown, in this andthe other included examples, connector receptacles according toembodiments of the present invention may be attached to flexible circuitboards, printed circuit boards, or other types of conductive pathways.

Again, a connector receptacle housing, such as connector housing 730,may be a separate piece of material, such as plastic, ceramic, oraluminum, from the enclosure of a device which houses the connectorreceptacle. In other embodiments of the present invention, all or someof the connector receptacle housing may be formed as part of a deviceenclosure. These device enclosures can house or enclose desktop, laptop,notebook, netbook, media players, portable media players, cell phones,or other types or electronic devices. Some examples of portions ofconnector receptacles that are consistent with embodiments of thepresent invention are shown in the following figures.

FIGS. 8A-8C illustrate examples where a portion of a connectorreceptacle housing may be formed as part of a device enclosure accordingto embodiments of the present invention. Incorporating at least aportion of the connector receptacle housing with a device enclosureallows the connector receptacle to visually appear as substantiallyintegrated with the device enclosure and provides an aestheticallypleasing appearance. In FIG. 8A, a portion 820 of a connector receptaclecan be formed with device enclosure 810. This provides a desiredappearance, while being relatively easy to manufacture.

In FIG. 8B, a substantial portion of recess 850, which may includesidewall 852 and bottom surface 854, of the connector receptacle housingcan be formed with device enclosure 840. In this example, tongue portion860 of the connector receptacle housing can be formed separate fromdevice enclosure 840. In FIG. 8C, connector receptacle housing 880,which may include sidewall 852, bottom surface 854, and connectorreceptacle tongue 890, may be integrally formed as part of devicehousing 870. In other embodiments of the present invention, otherportions of a connector receptacle may be integrally formed with adevice enclosure. These three example options are shown in the followingfigures.

FIGS. 9A-9C illustrate connector receptacle portions that may beintegrated with a device enclosure according to embodiments of thepresent invention. In FIG. 9A, a front portion 910 of a connectorreceptacle housing can be formed as a part of a device enclosure. Thisparticular level of integration of connector receptacle housing with thedevice enclosure can be referred to as partial integration. When viewedfrom the front of the connector receptacle, the connector receptaclehousing appears to be at least partially seamlessly integrated withinthe device enclosure. This provides an attractive appearance to thedevice. While a seam or part of a seam between the device enclosure andreceptacle housing may be observable in some embodiments with this levelof partial integration, this partial integration can be comparativelyeasy to manufacture.

FIG. 9B illustrates a portion of a connector receptacle housing that maybe formed as part of the device enclosure according to an embodiment ofthe present invention. This embodiment provides a more seamlessappearance between the device enclosure (not shown) and connectorreceptacle housing 920.

In FIG. 9C, a connector receptacle portion 940 including a tongue (notshown) may be formed in connector receptacle housing 930 as part of adevice enclosure (not shown.) Various steps in a manufacturing processesthat incorporate the above portions of a connector receptacle housingare shown in the following figures.

FIGS. 10A-10C illustrate a partially-integrated connector receptaclehousing according to an embodiment of the present invention at varioustimes during a manufacturing process. In FIG. 10A, a front portion 1010of a connector receptacle housing may be formed as part of a deviceenclosure (not shown.) In FIG. 10B, a connector receptacle 1020, whichmay be the connector receptacle of FIG. 4B, is provided. In FIG. 10C,connector receptacle 1020 may be fitted to an opening in connectorreceptacle portion 1010. As seen from the front, the connectorreceptacle housing appears to be at least partially integrated with thedevice enclosure, thereby providing an improved appearance.

FIGS. 11A-11D illustrate a connector receptacle housing that can beformed with a device enclosure according to an embodiment of the presentinvention at various times during a manufacturing process. FIG. 11Aillustrates a connector receptacle housing 1110 that may be formed alongwith a device enclosure (not shown.) In FIG. 11B, spherical fingercontacts 1120 may be placed in openings in connector receptacle housing1110. In FIG. 11C, a back portion of the connector receptacle includingtongue 1170, contacts 1150, and frame 1140, including fingers 1130, maybe assembled. This assembly, in this example, can then be connected to aflexible circuit board 1160.

In FIG. 11D, frame 1140 may be inserted over connector receptaclehousing 1110. Fingers 1130 deflect over spheres 1120. Spheres 1120 maybe held in place by holes in fingers 1130. Contacts 1150 can be madeavailable to flexible circuit board 1160 for connection to circuitryinside the device (not shown.)

FIGS. 12A-12F illustrate another connector receptacle housing that maybe formed with a device enclosure according to an embodiment of thepresent invention at various times during a manufacturing process. FIG.12A illustrates a connector receptacle housing 1210 that can be formedas a portion of a device enclosure (not shown.) FIG. 12B illustrates aframe 1220 including finger contacts 1225. The finger contacts 1225 inthis example are cylinders. These cylinders may be riveted or otherwiseattached to frame 1220. In other embodiments, other types of fingercontacts may be used. For example, domes or spheres may be used. Frame1220, in this example, can be designed to spread such that it may befitted over connector receptacle housing 1210. As before, fingercontacts 1225 may be made of a different material from frame 1220. Forexample, finger contacts 1225 may be made of a harder material than thatused to form frame 1220. In FIG. 12C, frame 1220 can fit over connectorreceptacle housing 1210.

Again, in some embodiments of the present invention, it is desirable toenclose frame 1220 in a shield. In this example, shield 1230 can be fitover frame 1220 and connector receptacle housing 1210 in FIG. 12D.

In FIG. 12E, connector receptacle tongue 1240 and contacts 1250 may beconnected to a flexible circuit board 1260. In FIG. 12F, this assemblymay be inserted into connector receptacle housing 1210, thereby formingthe connector receptacle.

In various embodiments of the present invention, it is desirable tointegrate connector receptacle tongue 1240 as part of connectorreceptacle housing 1210. An example of this is shown in the followingfigure.

FIGS. 13A-13D illustrate a connector receptacle housing and tongue thatmay be formed with a device enclosure according to an embodiment of thepresent invention at various times during a manufacturing process. FIG.13A illustrates a connector receptacle 1310 having a back portion 1315and a tongue (not shown) that are formed as part of a device enclosure(not shown.) In FIG. 13B, a shield 1330 can be attached via contacts1335 to a flexible circuit board 1340. In FIG. 13C this assembly may befit to connector receptacle housing 1310. Specifically, shield 1330 maybe fit over connector housing 1310. FIG. 13D illustrates a front view ofthe completed connector receptacle housing.

In this and the above examples, the finger contacts may have spherical,domed, cylindrical, or other shapes. These finger contacts reduce wearof connector inserts, provide a proper tactile response to the user, andprovide mechanical security when connector inserts are inserted. Again,it is also desirable to reduce wear on the connector receptacle itself.As before, various embodiments of the present invention provideconnector receptacles having one or more wear surfaces 1370.

These wear surfaces may be used in conjunction with the otherembodiments shown above. As described above, the wear surfaces may beslightly raised portions 1370 in the connector receptacle housing.Raised portions 1370 may be formed of the same material as the otherportions of connector housing 1310, or they may be made of a differentmaterial. For example, they may be made of a more durable material.Raised portions or surfaces 1370 may be arranged such that theyexperience the friction imparted by connector inserts as they areinserted into receptacle housing 1310. In this way, the surface near thefront of the connector receptacle housing 1310 can experience lessfriction and attendant marring, and the look of the connector receptaclecan be maintained over time.

In various embodiments of the present invention, it is desirable toprovide connector receptacle housings for several connectors as a unit.For example, this can provide multiple connector receptacles that arealigned to each other. An example of how this may be done according toan embodiment of the present invention is shown in the followingfigures.

FIGS. 14A-14D illustrate a number of connector receptacles according toan embodiment of the present invention at various times during amanufacturing process. In FIG. 14A, a number of connector receptaclehousings 1410 may be manufactured as a unit. This unit may bemanufactured separately or as part of a device enclosure (not shown.)FIG. 14B illustrates an assembly including a number of tongues 1420 andcontacts 1430. In FIG. 14C, tongue 1420 and contact assembly 1430 arecovered with a frame 1440 having a number of fingers 1450. In FIG. 14D,this assembly is attached to the number of connector receptacle housings1410.

FIGS. 15A-15D illustrate a connector receptacle according to anembodiment of the present invention at various times during amanufacturing process. FIG. 15A illustrates a connector receptacleaccording to an embodiment of the present invention. Connectorreceptacle 1500 may include housing 1510 and frame 1520. Housing 1510may further include tongue 1512. Contacts 1530 may reside on tongue1512. Ground tabs 1522 and keys 1524 may also be included. Bracket 1526may be attached to frame 1520 to provide a mechanical connection to adevice enclosure.

Again, it is desirable in some circumstances to provide a connectorreceptacle having a reduced height. This may allow an electronic deviceto be thinner and otherwise save space. Accordingly, embodiments thepresent invention may provide connector receptacles having a housingwhere one or more sides have been omitted. In this specific example, atop portion of housing 1510 has been omitted. In this way, the omissionof the housing portion may not be immediately noticeable to a user. Thisallows the height of connector receptacle 1500 to be reduced, while apleasing aesthetic appearance is maintained.

FIG. 15B illustrates a housing for a receptacle according to anembodiment of the present invention. In this figure, housing 1510 ofconnector receptacle 1500 may have an open area 1514 where a top ofhousing 1510 is absent or omitted. In other embodiments of the presentinvention, other portions of the housing, such as the bottom of thehousing, may be omitted.

In FIG. 15C, frame 1520 is attached to a back of housing 1510. In FIG.15D, contacts 1512 are inserted into housing 1510. In this embodiment ofthe present invention, contacts 1512 are surface mount contacts, thoughin other embodiments of the present invention, they may be through-holecontacts or other types of contacts.

The above description of embodiments of the invention has been presentedfor the purposes of illustration and description. It is not intended tobe exhaustive or to limit the invention to the precise form described,and many modifications and variations are possible in light of theteaching above. The embodiments were chosen and described in order tobest explain the principles of the invention and its practicalapplications to thereby enable others skilled in the art to best utilizethe invention in various embodiments and with various modifications asare suited to the particular use contemplated. Thus, it will beappreciated that the invention is intended to cover all modificationsand equivalents within the scope of the following claims.

What is claimed is:
 1. An electronic device comprising: an enclosure tohouse electronic components of the electronic device; a recess to form aconnector receptacle and including a sidewall extending from a surfaceof the enclosure into the electronic device, the sidewall terminating ina bottom surface a tongue extending from the bottom surface, the tongueand sidewall formed with and as part of the enclosure; and a pluralityof contacts located in the recess.
 2. The electronic device of claim 1wherein the plurality of contacts are located on the tongue.
 3. Theelectronic device of claim 2 wherein the bottom surface is formed withand as part of the enclosure.
 4. The electronic device of claim 2wherein the contacts are formed of one of the group consisting ofaluminum, steel, stainless steel, spring steel, and palladium-nickelalloy.
 5. The electronic device of claim 4 wherein the enclosure isformed of one of the group consisting of plastic, ceramic, and aluminum.6. An electronic device comprising: an enclosure to house electroniccomponents of the electronic device; a connector receptacle comprising arecess, the recess comprising: a bottom surface; a sidewall extendingfrom a surface of the enclosure to the bottom surface; a tongueextending from the bottom surface, the sidewall and tongue formed withand as part of the enclosure; and a plurality of contacts located in therecess.
 7. The electronic device of claim 6 wherein the plurality ofcontacts are located on the tongue.
 8. The electronic device of claim 7wherein the bottom surface is formed with and as part of the enclosure.9. The electronic device of claim 7 wherein the contacts are formed ofone of the group consisting of aluminum, steel, stainless steel, springsteel, and palladium-nickel alloy.
 10. The electronic device of claim 9wherein the enclosure is formed of one of the group consisting ofplastic, ceramic, and aluminum.
 11. An electronic device comprising: anenclosure to house electronic components of the electronic device; aconnector receptacle including a bottom surface and sidewall extendingfrom a surface of the enclosure into the electronic device to the bottomsurface; a tongue extending from the bottom surface, the sidewall andtongue formed with and as part of the enclosure, the sidewall and bottomsurface forming a recess; and a plurality of contacts located in therecess.
 12. The electronic device of claim 11 wherein the plurality ofcontacts are located on the tongue.
 13. The electronic device of claim12 wherein the bottom surface is formed with and as part of theenclosure.
 14. The electronic device of claim 12 wherein the contactsare formed of one of the group consisting of aluminum, steel, stainlesssteel, spring steel, and palladium-nickel alloy and wherein theenclosure is formed of one of the group consisting of plastic, ceramic,and aluminum.